Detachable belt connector system

ABSTRACT

A detachable belt connector system (100), for the detachable connection of belt ends (770, 775), includes a first connector element (110) with a first connection area (112) and a first belt fastening area (116) and a second connector element (120) with a second connection area (122) and a second belt fastening area (126). The first and second connection areas are configured to be connected to one another in a detachably with a positive-lock. The belt ends can be fastened at the belt fastening areas via a corresponding permanent fastening mechanism. The first belt fastening area and/or the second belt fastening area are configured such that they have a predetermined breaking region (140), by means of which an irreversible break takes place at the belt fastening area having the predetermined breaking region when a predefined limit pulling force (150) is applied at the detachable belt connector system.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of priority under 35 U.S.C. § 119 ofGerman Application 10 2019 008 045.9, filed Nov. 20, 2019, the entirecontents of which are incorporated herein by reference.

TECHNICAL FIELD

The present invention pertains to a detachable belt or strap connectorsystem, to a chin strap lock with two belt ends and with a detachablebelt connector system and to a safety helmet with a chin strap lock

TECHNICAL BACKGROUND

Detachable belt connector systems in different variants and fordifferent applications are known. It is, in principle, the object of adetachable connector system to connect two belt ends to one another in areliable manner until this connection is severed again due to manualmanipulation of the closed belt connector system.

For special applications, for example, the use of a detachable beltconnector system on a firefighter helmet, the requirement is,furthermore, known that the detachable belt connector system is openedin the case of a predefined limit pulling force for protection against astrangulation of the user of the firefighter helmet.

For accomplishing such a protection against strangulation, the use of abreak ring, which breaks at the predefined limit pulling force and as aresult releases two belt ends, is currently common.

SUMMARY

An object of the present invention is to provide an improved detachablebelt or strap connector system, especially a detachable belt connectorsystem that can be manufactured in an especially simple manner.

A detachable belt connector system, especially a chin strap lock for thedetachable connection of a first belt end and of a second belt end witha first connector element and with a second connector element, isproposed according to the present invention to accomplish this object.

The first connector element has a first connection area and a first beltfastening area.

The second connector element has a second connection area and a secondbelt fastening area.

The first connection area and the second connection area are in thiscase configured such that the first connector element and the secondconnector element can be connected to one another via the two connectionareas in a detachable and positive-locking manner, and wherein the firstbelt end can be fastened at the first belt fastening area and the secondbelt end can be fastened at the second belt fastening area via acorresponding permanent fastening mechanism. In this connection, thefirst belt fastening area and/or the second belt fastening area areconfigured such that they have a predetermined breaking point (alsoreferred to herein as a predetermined breaking region), by means ofwhich an irreversible break, especially an irreversible break foropening the permanent fastening mechanism, takes place at the beltfastening area having the predetermined breaking point/region when apredefined limit pulling force is applied at the detachable beltconnector system.

It was found within the framework of the present invention that forprotection against strangulation in the presence of a predefined limitpulling force, a mechanism which can be manufactured in an especiallysimple manner by providing a predetermined breaking point at one of thetwo connector elements can be made possible. Furthermore, it was foundthat such a simple structure of the two connector elements leads in anespecially reliable manner to a release of the two belt ends when thepredefined limit pulling force is present.

Because the predetermined breaking point/region is provided in at leastone of the two belt fastening areas of a connector element of the beltconnector system according to the present invention, both manualconnecting of the belt ends and release of the belt ends in the case ofa predefined limit pulling force can be achieved by the two connectorelements being coordinated with one another. In particular, a separatepart, for example, a break ring, is thereby avoided. This advantageouslyreduces the cost and complexity in case of the manufacture of the beltconnector system.

Furthermore, the simple structure of the detachable belt connectorsystem according to the present invention makes possible a one-piecemanufacture of the first connector element and of the second connectorelement.

The release of the two belt ends takes place here in an especiallyreliable manner, since a force, for example, a force acting on a helmetconnected to the belt connector system, also acts in a reliable manneron the two connector elements of the belt connector system.

The permanent fastening mechanism of the respective belt end at therespective belt fastening area is embodied, for example, by a stitching.Furthermore, the permanent fastening mechanism may be a bonding, weldingor the like. At least one of the two permanent fastening mechanismspreferably makes it possible to adjust the belt end, for example, inorder to set the length of a belt via this belt end. For example, acorresponding binding of the belt end may also form a permanentfastening mechanism. The fastening mechanism is permanent according tothe present invention because it is not detached by itself even at highpulling forces and even after several typical use times of the beltconnector system. The permanent fastening mechanism may, however, bedetached manually in some embodiments of the belt connector systemaccording to the present invention.

The irreversible break at the predetermined breaking point/region canlead to a breaking out of a part of the corresponding belt fasteningarea or to a breaking open of a part of the corresponding belt fasteningarea.

The positive-locking connection of the two connector elements can beachieved according to the present invention by one of the many alreadyknown structures of connector elements, for example, by a plug-typeconnection (also referred to herein as a plug connection).

The predefined limit pulling force is preferably a pulling force appliedbetween the two belt ends.

Preferred embodiments of the belt connector system according to thepresent invention will now be described below.

In an especially preferred embodiment, when in a state of beingconnected to one another the two connection areas are configured suchthat they are not detached from one another when a predefined limitpulling force is applied. It is ensured in this exemplary embodimentthat the detachable belt connector system withstands pulling forces upto the predefined limit pulling force. As a result, a reliableconnection between the two connector elements is ensured.

In another advantageous embodiment, the first connector element and thesecond connector element have a one-piece configuration each. In thisembodiment, the two connector elements can be manufactured in anespecially simple and cost-effective manner. In a variant of thisembodiment, the first connector element and the second connector elementare manufactured by an injection molding process or by a 3D printingprocess. An especially fast and cost-effective manufacture is possiblein this variant.

In an especially preferred embodiment, the predetermined breakingpoint/region is formed in a break ring, in an eyelet, in a hook, in astructural tapered area and/or in a bending beam of the correspondingbelt fastening area. The structure of the predetermined breakingpoint/region, in particular its material thickness, ensures that itleads to the irreversible break when the predefined limit pulling forceis applied. The precise static configuration of such a structure withspecification of the predefined limit pulling force is known from manyrelated technical areas and will not be explained in detail below. In anespecially simple variant of this embodiment, the predetermined breakingpoint/region is provided in the break ring, which forms a part of thefirst and/or second connector element and the structure of the breakring corresponds to that of the break ring known from the state of theart.

In another embodiment, a particular predetermined breaking point/region,which leads to an irreversible break when a predefined limit pullingforce is applied, is provided in the first connector element and in thesecond connector element. The provision of a plurality of predeterminedbreaking point/regions makes possible a break in an especially reliablemanner when the predefined limit pulling force is applied, even if thislimit pulling force is applied from an angle, which possibly preventsthe break at one of the predetermined breaking point/regions.

An area of lesser material thickness is formed at the predeterminedbreaking point/region compared to a material thickness that is presentat a spaced location from the predetermined breaking point/region in anespecially preferred embodiment. As a result, the predetermined breakingpoint/region can be embodied in an especially cost-effective andreliable manner. Such a change in the material thickness can be analyzedin an especially reliable manner by means of known, existing softwaresolutions, so that the irreversible break takes place in a reliablemanner when the predefined limit pulling force is applied.

In another embodiment, the predetermined breaking point/region is formedby a semicircular tapered area, especially a semicircular tapered areaof a material enclosing an eyelet of the belt fastening area. In analternative or additional embodiment, the predetermined breakingpoint/region is formed by an angular, especially triangular orrectangular tapered area.

In another embodiment, the predetermined breaking point/region ismanufactured from a different material than the corresponding connectionarea of the corresponding connector element. The irreversible break canespecially advantageously develop in this embodiment when the predefinedlimit pulling force is applied by the connection between the twomaterials used for the connector element being severed, especiallybroken open precisely at the predefined limit pulling force. As analternative or in addition, the irreversible break can develop when thepredefined limit pulling force is applied in this embodiment by theother material breaking when the predefined limit pulling force isapplied. In this alternative or additional embodiment, the predeterminedbreaking point/region is formed by the area of the other material, whichbreaks as planned when the predefined limit pulling force is applied.

In a preferred embodiment, the detachable belt connector system ismanufactured by an injection molding process. An especially simple andcost-effective manufacture is possible as a result.

In an especially preferred and advantageous embodiment, the twoconnector elements form a plug-type connection. In this case the firstconnection area preferably forms a male part of the plug-type connectionand the second connection area forms a female part of the plug-typeconnection. Such a structure of the connector elements advantageouslymakes possible that already known structures can be used for the twoconnector elements in order to form the detachable belt connector systemaccording to the present invention in combination with at least one beltfastening area configured according to the present invention with apredetermined breaking point/region. Furthermore, a plug-type connectioncan ensure in an especially reliable manner a connection between the twoconnection areas. In a preferred variant of this embodiment, the twoconnection areas are configured here such that when in a state of beingconnected to one another they are not detached from one another when thepredefined limit pulling force is applied. The guarantee of a reliableconnection between the two connection areas can be made possible in anespecially simple manner by a positive-locking connection provided bymeans of the plug-type connection.

According to another aspect of the present invention, a chin strap lockwith two belt ends and with a detachable belt connector system accordingto at least one of the above embodiments is proposed to accomplish theobject mentioned above. Preferably, in this case, the first belt end ispermanently fastened at the first belt fastening area and the secondbelt end is permanently fastened at the second belt fastening area. Insuch a structure, the chin strap lock can be used for the secure fixingof a helmet on a head. The predefined limit pulling force is in thiscase preferably a pulling force being applied between the two belt ends.

According to an especially advantageous aspect of the present invention,a safety helmet, especially a firefighter helmet, which has a chin straplock in accordance with one of the above embodiments, is proposed toaccomplish the object mentioned above.

A safety helmet, and especially a firefighter helmet, is often usedunder ambient conditions that are difficult to predict, so that suddenlyoccurring pulling forces on the safety helmet are also expected.Therefore, the irreversible break occurring according to the presentinvention when the predefined limit pulling force is applied isespecially advantageous to prevent physical damage to the user of thesafety helmet when pulling forces occur suddenly.

Furthermore, the safety helmet makes possible a separation of the twobelt ends from one another even if a manual opening of the connectionbetween the two connection areas is not possible, for example, becauseof the absence of manual accessibility or because of plastic deformationof the belt connector system.

The present invention shall now be explained in more detail on the basisof advantageous exemplary embodiments, which are schematically shown inthe figures.

The various features of novelty which characterize the invention arepointed out with particularity in the claims annexed to and forming apart of this disclosure. For a better understanding of the invention,its operating advantages and specific objects attained by its uses,reference is made to the accompanying drawings and descriptive matter inwhich preferred embodiments of the invention are illustrated.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings:

FIG. 1 is a schematic view of a first exemplary embodiment of adetachable belt connector system according to the present invention inan opened state;

FIG. 2 is a schematic view of the first exemplary embodiment of thedetachable belt connector system according to the present invention in aclosed state;

FIG. 3 is a schematic view of a particular belt fastening area withpredetermined breaking point/region of a particular exemplary embodimentof the detachable belt connector system according to the presentinvention, wherein the belt fastening area has two predeterminedbreaking points/regions;

FIG. 4 is a schematic view of a particular belt fastening area withpredetermined breaking point/region of a particular exemplary embodimentof the detachable belt connector system according to the presentinvention, wherein the belt fastening area has the predeterminedbreaking point/region that is manufactured from a different materialthan the rest of the connector element;

FIG. 5 is a schematic view of a particular belt fastening area withpredetermined breaking point/region of a particular exemplary embodimentof the detachable belt connector system according to the presentinvention, wherein the belt fastening area has the predeterminedbreaking point/region that is formed at a hook of the belt fasteningarea;

FIG. 6 is a schematic view of a belt fastening area with threepredetermined breaking point/regions of an exemplary embodiment of thedetachable belt connector system according to the present invention;

FIG. 7 is a schematic view of an exemplary embodiment of a chin straplock according to another aspect of the present invention; and

FIG. 8 is a schematic view of an exemplary embodiment of a safety helmetaccording to an especially advantageous aspect of the present invention.

DESCRIPTION OF PREFERRED EMBODIMENTS

Referring to the drawings, FIG. 1 shows a schematic view of a firstexemplary embodiment of a detachable belt connector system 100 accordingto the present invention in an open state.

The detachable belt connector system is configured for the detachableconnection of a first belt end and of a second belt end and comprises afirst connector element 110 and a second connector element 120 for thispurpose.

The first connector element 110 has a first connection area 112 and afirst belt fastening area 116. The first connection area 112 comprises areceptacle 113, which forms the female part of a plug connection 130.Furthermore, the first connection area 112 comprises two opening arms114, which are arranged on the side next to the receptacle 113 and viawhich a manual opening of the plug connection 130 is embodied. The firstbelt fastening area 116 comprises a first eyelet 117, via which thefirst belt end can be fastened by means of a permanent fasteningmechanism. For example, the belt end can be pushed through the firsteyelet 117 and be stitched and/or bonded, so that a permanent fasteningis achieved as a result.

The second connector element 120 has a second connection area 122 and asecond belt fastening area 126. The second connection area 122 has acentral web 123, from which two lateral closing arms 124 project. Thesecond connection area 122 forms the male part of the plug connection130 by means of this structure. The closing arms 124 are configured inthis case such that they project from the web 123 laterally afterinserting the second connection area 122 into the receptacle 113 of thefirst connection area 112 such that a removal of the second connectionarea 122 from the first connection area 112 is blocked by the closingarms 124 and by a corresponding blocking area (not shown) of the firstconnection area 112. The second belt fastening area 126 has a secondeyelet 127, via which the second belt end can be fastened via apermanent fastening mechanism. For example, the belt end can be pushedthrough the second eyelet 127 and be stitched and/or bonded, so that apermanent fastening is achieved as a result.

Due to the explained structures of the first connection area 112 and ofthe second connection area 122, these two connection areas form the plugconnection 130, via which the two connection areas can be connected toone another in a detachable and positive-locking manner.

According to the present invention, the first belt fastening area 116 isconfigured such that a predetermined breaking point/region 140 ispresent in the area of the first eyelet 117. This predetermined breakingpoint/region 140 is embodied by a structural tapered area, which formsan area of lesser material thickness. In the exemplary embodiment beingshown, the material in the area of the predetermined breakingpoint/region 140 has a minimal width B1 of at most 5 mm, especially atmost 3 mm, preferably at most 1.5 mm. Outside of the predeterminedbreaking point/region, the material has a width B2 of more than 3 mm,especially more than 4 mm. The precise variant of the predeterminedbreaking point/region is selected according to the present inventionsuch that an irreversible break takes place at the first belt fasteningarea 116 having the predetermined breaking point/region 140 when apredefined limit pulling force 150 is applied at the detachable beltconnector system 100. The predefined limit pulling force 150 ispreferably between 150 N and 250 N.

The second belt fastening area 126 of the second connector element 120has a markedly greater material thickness in the area of the secondeyelet 127 than the first belt fastening area 116 has in the area of thefirst eyelet 117. The material thickness in the area of the secondeyelet 127 is at least 4 mm, especially at least 5 mm, especiallypreferably at least 6 mm. As a result, it is ensured in the exemplaryembodiment shown that a separation of the two belt ends can be forceddue to the action of a pulling force only over the predeterminedbreaking point/region 140.

The limit pulling force 150 acts in a direction located opposite adirection of motion for closing the plug connection 130.

In the exemplary embodiment shown, the two connector elements have aone-piece configuration each. Furthermore, they are manufactured by aninjection molding process. The detachable belt connector system ismanufactured from a plastic in the present case. Manufacturing from aplastic is especially preferred for the belt connector system accordingto the present invention because of the low manufacturing costs madepossible thereby.

The structure of the two connection areas 112, 122 is selected to besuch that in the connected state, the plug connection 130 is notdetached when the predefined limit pulling force 150 is applied. It isensured as a result that the detachable belt connector system 100reliably remains closed as long as it is not opened by a manualactuation of the plug connection 130 or the predefined limit pullingforce 150 is applied and leads to the break of the predeterminedbreaking point/region 140.

In one exemplary embodiment, not shown, at least one predeterminedbreaking point/region is provided at the first belt fastening area ofthe first connector element and at least one predetermined breakingpoint/region is provided at the second belt fastening area of the secondconnector element. A plurality of predetermined breaking points orbreaking regions may be present at a single belt fastening area (cf.FIG. 6).

FIG. 2 shows a schematic view of the first exemplary embodiment of thedetachable belt connector system 100 according to the present inventionin a closed state.

In the closed state shown, the closing arms 124 protrude laterally fromthe receptacle 113 such that a pulling of the second connector element120 out of the receptacle 113 is prevented by means of a correspondingblocking area (not shown) in the area of the receptacle.

By means of a manual actuation of the two opening arms 114 by lateralpressure, the closing arms 124 can be pressed against the web andconsequently make possible a detachment of the plug connection 130.

According to the present invention, two belt ends connected to the twobelt fastening areas 116, 126 can only be separated from one anotherfrom the connected state of the plug connection 130 shown by the plugconnection being detached manually or by an irreversible break of thepredetermined breaking point/region taking place via the predefinedlimit pulling force.

FIGS. 3, 4 and 5 show schematic views of a particular belt fasteningarea with a predetermined breaking point/region of a particularexemplary embodiment of the detachable belt connector system accordingto the present invention, wherein the belt fastening area 316 has twopredetermined breaking points or breaking regions 340, 340′ (FIG. 3),the predetermined breaking point/region is manufactured from a differentmaterial than the rest of the connector element 410 (FIG. 4), and thepredetermined breaking point/region 540 is formed at a hook 560 of thebelt fastening area 516 (FIG. 5).

The provision of at least two predetermined breaking points/regions 340,340′, as it is shown in FIG. 3, makes possible the breaking of the beltfastening area 316 at at least one of these predetermined breakingpoints 340, 340′ in an especially reliable manner. The two predeterminedbreaking points 340, 340′ are arranged on an outer surface 318 of thebelt fastening area 316 in the exemplary embodiment shown.

The belt fastening area 416 shown in FIG. 4 is formed from a differentmaterial than the rest of the connector element 410. As a result, thefirst eyelet 417 is entirely formed from this different material.According to the present invention, the different material is selectedsuch that it breaks at the predefined limit pulling force and/or thatthe connection in substance between the different material and thematerial from which the rest of the connector element 410 is formedbreaks at the predefined limit pulling force.

The first belt fastening area 516 shown in FIG. 5 has a hook 560 forfastening a belt end. The predetermined breaking point 540 is arrangedin this case at the area of the hook 560, which area connects the frontweb 565 of the hook 560 to the rest of the belt fastening area 516. Inone exemplary embodiment, not shown, the predetermined breaking point isarranged within the belt fastening area in a different area of a hook.

FIG. 6 shows a schematic view of a belt fastening area 616 with threepredetermined breaking points 640, 640′, 640″ of an especially preferredexemplary embodiment of the detachable belt connector system accordingto the present invention.

In the exemplary embodiment being shown, two of the predeterminedbreaking points 640, 640′ are arranged on an inner surface 619 of thefirst eyelet 617 and another predetermined breaking point 640″ isarranged on an outer surface 618 of the first eyelet 617. The otherpredetermined breaking point 640″ is located spatially between the twoother predetermined breaking points 640, 640′. For the shown structureof the predetermined breaking points 640, 640′, 640″ it can bedetermined in an especially reliable manner, especially determined viaknown methods of structural analysis, how a particular materialthickness has to be selected so that an irreversible break takes placeat at least one of these predetermined breaking points 640, 640′, 640″when the predefined limit pulling force is applied.

The predetermined breaking points 640, 640′, 640″ are in the exemplaryembodiment being shown formed via semicircular tapered areas of thematerial enclosing the eyelet 617. In one exemplary embodiment, notshown, at least one tapered area for providing the predeterminedbreaking point/region has an angular, especially rectangular ortriangular configuration.

Other arrangements of a plurality of predetermined breaking points orbreaking regions are possible according to the present invention toachieve that an irreversible break occurs at at least one of thesepredetermined breaking points or breaking regions when the predefinedlimit pulling force is applied.

The provision of the predetermined breaking point/region at the firstconnector element is only an example within the framework of theexemplary embodiments shown. In one exemplary embodiment, not shown, thepredetermined breaking point/region is formed at the second connectorelement.

The provision of a plug connection is only an example in the exemplaryembodiments shown. In one exemplary embodiment, not shown, theconnection between the two connector elements is a detachable clampedconnection.

FIG. 7 shows a schematic view of a chin strap lock 700 according toanother aspect of the present invention.

The chin strap lock 700 comprises the detachable belt connector system100 that is shown in FIG. 1 and FIG. 2. The predetermined breakingpoint/region according to the present invention is covered by the firstbelt end 770, which is arranged at the first belt fastening area 116.

Furthermore, the chin strap lock 700 comprises the second belt end 775,which is arranged at the second belt fastening area 126. The belt endsare here each permanently fastened at the particular belt fastening area116, 126 by a stitching of the particular belt end to itself.

The predefined limit pulling force is typically a force that pulls thetwo belt ends 770, 775 away from one another and thereby exerts a forceon the predetermined breaking point/region of the detachable beltconnector system 100.

FIG. 8 shows a schematic view of the safety helmet 800 according to anespecially advantageous aspect of the present invention.

The safety helmet 800 comprises helmet body and the chin strap lock 700shown in FIG. 7 and therefore also the detachable belt connector system100 shown in FIG. 1 and

FIG. 2.

According to the present invention, the safety helmet may be, forexample, a firefighter helmet, a motorcycle helmet, a bicycle helmet orthe like. The safety helmet 800 is especially preferably a firefighterhelmet.

According to the present invention, an extreme stress on the safetyhelmet 800 may lead to a force acting between the two belt ends 770,775. This force may lead, for example, to a strangulation of the user ofthe safety helmet, so that according to the present invention thepredetermined breaking point/region of the detachable belt connectorsystem 100 breaks when the predefined limit pulling force is reached andas a result releases the two belt ends. As a result, a continuousstrangulation of the user of the safety helmet 800 is preventedaccording to the present invention.

Especially advantageously, the plug connection 130 in this case isconfigured to connect the two connector elements 110, 120 of thedetachable belt connector system 100 to one another in a reliable mannereven when the predefined limit pulling force is applied. It isconsequently ensured that the safety helmet 800 is fixed securely on thehead of the user and fulfills its protective function for the userthereby. The detachable belt connector system 100 according to thepresent invention for the safety helmet 800 according to the presentinvention can consequently ensure that there is a reliable fixing of thesafety helmet 800 on the head and that when an acting force occurs,especially when an acting force occurs suddenly, the risk of thestrangulation of the user is prevented by the breaking of thepredetermined breaking point/region when the predefined limit pullingforce is present.

While specific embodiments of the invention have been shown anddescribed in detail to illustrate the application of the principles ofthe invention, it will be understood that the invention may be embodiedotherwise without departing from such principles.

LIST OF REFERENCE CHARACTERS

-   100 Detachable belt connector system-   110, 410 First connector element-   112 First connection area-   113 Receptacle-   114 Opening arm-   116, 316, 416, 516, 616 First belt fastening area-   117, 417, 617 First eyelet-   120 Second connector element-   122 Second connection area-   123 Web-   124 Closing arm-   126 Second belt fastening area-   127 Second eyelet-   130 Plug connection-   140, 340, 340′, 540, 640, 640′, 640″ Predetermined breaking    point/regionp0 150 Predefined limit pulling force-   318, 618 Outer surface-   560 Hook-   565 Front web of the hook-   619 Inner surface-   700 Chin strap lock-   770 First belt end-   775 Second belt end-   800 Safety helmet-   B1 Minimal width at the predetermined breaking point/region-   B2 Width outside of the predetermined breaking point/region

What is claimed is:
 1. A detachable belt connector system for adetachable connection of a first belt end and of a second belt end, thedetachable belt connector system comprising: a first connector elementcomprising a first connection area and a first belt fastening area; anda second connector element comprising a second connection area and asecond belt fastening area, wherein: the first connection area and thesecond connection area are configured such that the first connectorelement and the second connector element connect to one anotherdetachably with a positive-lock via the two connection areas; the firstbelt end is fastenable at the first belt fastening area via a first endpermanent fastening mechanism associated with the first belt end and thesecond belt end is fastenable at the second belt fastening area via asecond end permanent fastening mechanism associated with the second beltend; and the first belt fastening area and/or the second belt fasteningarea are configured with a predetermined breaking region, by means ofwhich an irreversible break takes place at the belt fastening areahaving the predetermined breaking region when a predefined limit pullingforce is applied at the detachable belt connector system.
 2. Adetachable belt connector system in accordance with claim 1, wherein ina state of being connected to one another the two connection areas areconfigured such that they are not detached from one another when thepredefined limit pulling force is applied.
 3. A detachable beltconnector system in accordance with claim 1, wherein each of the firstconnector element and the second connector element have a one-piececonfiguration.
 4. A detachable belt connector system in accordance withclaim 1, wherein the predetermined breaking region is formed in a breakring, in an eyelet, in a hook, in a structural tapered area and/or in abending beam of the corresponding belt fastening area.
 5. A detachablebelt connector system in accordance with claim 1, wherein an area oflesser material thickness is formed at the predetermined breaking regionin comparison to a material thickness present at a spaced location fromthe predetermined breaking region.
 6. A detachable belt connector systemin accordance with claim 1, wherein the predetermined breaking region ismanufactured from a different material than the corresponding connectionarea of the corresponding connector element.
 7. A detachable beltconnector system in accordance with claim 1, wherein the detachable beltconnector system is manufactured by an injection molding process.
 8. Adetachable belt connector system in accordance with claim 1, wherein:the two connector elements form a plug connection; and the firstconnection area forms a male part of the plug connection and the secondconnection area forms a female part of the plug connection.
 9. A chinstrap lock comprising: a first strap with a first strap end; a secondstrap with a second strap end; a first connector element comprising afirst connection area and a first strap fastening area; and a secondconnector element comprising a second connection area and a second strapfastening area, wherein: the first connection area and the secondconnection area are configured such that the first connector element andthe second connector element connect to one another detachably with apositive-lock via the two connection areas; the first strap end isfastened at the first strap fastening area via a first end permanentfastening mechanism associated with the first strap end and the secondstrap end is fastened at the second strap fastening area via a secondend permanent fastening mechanism associated with the second strap end;and the first strap fastening area and/or the second strap fasteningarea are configured with a predetermined breaking region, by means ofwhich an irreversible break takes place at the strap fastening areahaving the predetermined breaking region when a predefined limit pullingforce is applied at the detachable strap connector system.
 10. A chinstrap lock in accordance with claim 9, wherein the predefined limitpulling force is a pulling force applied between the two strap ends. 11.A chin strap lock in accordance with claim 9, wherein in a state ofbeing connected to one another the two connection areas are configuredsuch that they are not detached from one another when the predefinedlimit pulling force is applied.
 12. A chin strap lock in accordance withclaim 9, wherein each of the first connector element and the secondconnector element have a one-piece configuration.
 13. A chin strap lockin accordance with claim 9, wherein the predetermined breaking region isformed in a break ring, in an eyelet, in a hook, in a structural taperedarea and/or in a bending beam of the corresponding belt fastening area.14. A chin strap lock in accordance with claim 9, wherein an area oflesser material thickness is formed at the predetermined breaking regionin comparison to a material thickness present at a spaced location fromthe predetermined breaking region.
 15. A chin strap lock in accordancewith claim 9, wherein the predetermined breaking region is manufacturedfrom a different material than the corresponding connection area of thecorresponding connector element.
 16. A safety helmet comprising: ahelmet body; a chin strap lock connected to the helmet body, the chinstrap lock comprising: a first strap with a first strap end; a secondstrap with a second strap end; a first connector element comprising afirst connection area and a first strap fastening area; and a secondconnector element comprising a second connection area and a second strapfastening area, wherein: the first connection area and the secondconnection area are configured such that the first connector element andthe second connector element connect to one another detachably with apositive-lock via the two connection areas; the first strap end isfastened at the first strap fastening area via a first end permanentfastening mechanism associated with the first strap end and the secondstrap end is fastened at the second strap fastening area via a secondend permanent fastening mechanism associated with the second strap end;and the first strap fastening area and/or the second strap fasteningarea are configured with a predetermined breaking region, by means ofwhich an irreversible break takes place at the strap fastening areahaving the predetermined breaking region when a predefined limit pullingforce is applied at the detachable strap connector system.
 17. A safetyhelmet in accordance with claim 16, wherein: the predefined limitpulling force is a pulling force applied between the two strap ends; andin a state of being connected to one another the two connection areasare configured such that they are not detached from one another when thepredefined limit pulling force is applied.
 18. A safety helmet inaccordance with claim 16, wherein each of the first connector elementand the second connector element have a one-piece configuration.
 19. Asafety helmet in accordance with claim 16, wherein the predeterminedbreaking region is formed in a break ring, in an eyelet, in a hook, in astructural tapered area and/or in a bending beam of the correspondingbelt fastening area.
 20. A safety helmet in accordance with claim 19,wherein the predetermined breaking region comprises at least one of: anarea of lesser material thickness in comparison to a material thicknesspresent at adjacent regions of the corresponding belt fastening area;and a different material in comparison to a material present at adjacentregions of the corresponding belt fastening area.